Significance Sequences derived from transposable elements (TEs) are abundant in the human genome and can influence gene expression. In normal cells, most TEs are silenced by epigenetic mechanisms such as DNA methylation but, in cancer, normally dormant TEs can become active. We hypothesized that cancer-specific release of epigenetic suppression of TEs could result in gene expression perturbations, which could promote oncogenesis. Using a bioinformatics method, we identified many genes expressed in diffuse large B-cell lymphoma (DLBCL) via activation of TE promoters. Further analysis of one, FABP7 , showed it was expressed in some DLBCL samples through use of a TE promoter. The TE-driven FABP7 transcript encodes a novel isoform of the protein, which is required for optimal DLBCL cell line proliferation.
The fusion peptide of TBEV is a short segment of the envelope protein that mediates viral and host cell membrane fusion at acidic pH. Previous studies on the E protein have shown that mutations at L107 have an effect on fusogenic activity. Structural studies have also suggested that during the fusion process the E protein rearranges to form a trimer. In the present study, a number of short peptides were synthesized, and their structure/activity was examined: (1) monomers consisting of residues 93-113 of the wild-type E protein with Leu at position 107 (WT) and two mutants, namely, L107F and L107T; (2) a monomer consisting of residues 93-113 of the E protein with a C105A mutation (TFPmn); (3) a trimer consisting of three monomers described in (2), linked at the C-terminus via 1 Lys (TFPtr); (4) a monomer consisting of residues 93-113 of the E protein plus six additional Lys at the C-terminus; and (5) a trimer consisting of three monomers described in (3), linked via the side chain of the sixth lysine. The secondary structure content of all peptides was investigated using circular dichroism (CD). Approximately seven of the residues were in beta-strand conformation, in the presence of POPC/POPE/cholesterol. The structures did not depend on pH significantly. The fusogenicity of the peptides was measured by FRET and photon correlation spectroscopy. The data suggest that TFPtr is the most fusogenic at acidic pH and that the mutation from L107 to T reduces activity. Molecular dynamics simulations of WT, L107T, and L107F suggest that this reduction in activity may be related to the fact that the mutations disrupt trimer stability. Finally, tryptophan fluorescence experiments were used to localize the peptides in the membrane. It was found that WT, L107F, TFPmn, and TFPtr could penetrate better into the acyl chain region of the lipids than the other peptides tested. The implications of these results on the fusion mechanism of TBEV E protein will be presented.
The human neuronal apoptosis inhibitory protein (NAIP) gene is no longer principally considered a member of the Inhibitor of Apoptosis Protein (IAP) family, as its domain structure and functions in innate immunity also warrant inclusion in the Nod-Like Receptor (NLR) superfamily. NAIP is located in a region of copy number variation, with one full length and four partly deleted copies in the reference human genome. We demonstrate that several of the NAIP paralogues are expressed, and that novel transcripts arise from both internal and upstream transcription start sites. Remarkably, two internal start sites initiate within Alu short interspersed element (SINE) retrotransposons, and a third novel transcription start site exists within the final intron of the GUSBP1 gene, upstream of only two NAIP copies. One Alu functions alone as a promoter in transient assays, while the other likely combines with upstream L1 sequences to form a composite promoter. The novel transcripts encode shortened open reading frames and we show that corresponding proteins are translated in a number of cell lines and primary tissues, in some cases above the level of full length NAIP. Interestingly, some NAIP isoforms lack their caspase-sequestering motifs, suggesting that they have novel functions. Moreover, given that human and mouse NAIP have previously been shown to employ endogenous retroviral long terminal repeats as promoters, exaptation of Alu repeats as additional promoters provides a fascinating illustration of regulatory innovations adopted by a single gene.
Background:The expression of the activating receptor NKp46/NCR1 is highly restricted to NK cells. Results: RUNX proteins bind identified cis-regulatory element and affect NCR1 expression. Conclusion: NCR1 is regulated by two key proximal cis-regulatory elements and by RUNX factors. Significance: Mapping regulatory components of NCR1 will contribute to a deeper understanding of NK biology.
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